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Sickle Cell Anemia clinical trials

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NCT ID: NCT05283148 Active, not recruiting - Osteoporosis Clinical Trials

Sickle Cell Disease (SCD) Bone Pain Study

Start date: November 3, 2022
Phase: N/A
Study type: Interventional

A prospective study to determine how low bone mineral density and/or vertebral compression fractures associate with pain in adults with sickle cell disease

NCT ID: NCT04808778 Active, not recruiting - Stroke Clinical Trials

Stroke Prevention in Young Adults With Sickle Cell Anemia

SPIYA
Start date: May 17, 2021
Phase:
Study type: Observational

Sickle cell disease (SCD) is the most common genetic disease, affecting about 25 million people worldwide. Approximately 150,000 Nigerian children are born each year with sickle cell disease (SCD), making it the country with the largest burden of SCD in the world. Recent advancements in care for children with SCA have translated into improved survival of children in both high and low-resource settings. However, more complications of SCD are seen in those who survive to adulthood. Silent cerebral infarcts (SCI) and strokes are among the most devastating complications of SCD, affecting 40% and 10% of children, respectively. The overall goal of this study is to extend the Investigator's successful capacity-building effort in the assessment of neurological morbidity in children with SCD living in northern Nigeria (Kano) to young adults with SCD living in the same region. About 50% of all adults with SCD live in Nigeria. Despite the high prevalence of SCD in Africa, the neurological morbidity is not well characterized, limiting opportunities for primary and secondary stroke prevention strategies. At least 50% of young adults with sickle cell anemia (SCA), the most severe form of the disease, will have SCIs and an estimated 10% will have strokes, based on studies in high-resource settings. In high-resource settings, screening for abnormal transcranial Doppler (TCD) velocities in children with SCA, coupled with regular blood transfusion has resulted in a 92% reduction of relative risk for strokes. Despite this effective strategy, regular blood transfusion therapy does not seem sustainable in sub-Saharan Africa due to shortages and the risk of transfusion transmissible infections. Additionally, there is a lack of evidence-based stroke prevention strategies in young adults with SCA, either in the high-income or in low-resource settings. Based on the foregoing, the Investigators propose to determine the prevalence of neurological injury (overt stroke, transient ischemic attacks, and silent cerebral infarcts) in young adults at the transition age from 16-25 years. The Investigators will also, for the first time, assess conventional risk factors of stroke in the general population to determine whether a different prevention strategy is required to reduce the incidence of neurological injury in this high-risk population.

NCT ID: NCT04001907 Active, not recruiting - Sickle Cell Anemia Clinical Trials

Effect of Exercise With and Without HMB on Body Composition and Muscle Strength in Sickle Cell Anaemia

Start date: April 30, 2013
Phase: N/A
Study type: Interventional

Wasting is a common and significant problem in sickle cell anaemia (SCA) that correlates with poorer clinical outcome such as frequent painful crises, acute chest syndrome and sub normal resistance to infection. Thus, improvement of nutritional status in SCA holds the potential of ameliorating the course of the disease. Elevated haemolysis and its effects are associated with hypermetabolism and have resulted in higher rates of protein breakdown and synthesis, and energy expenditure. Offering more food has not optimized nutritional status and metabolic performance in free-living patients with SCA. Moreover, appetite might be suppressed. Supplementation with β-hydroxy-β-methylbutyrate (HMB), which is produced in the body from leucine, has been shown to have inhibitory effect on protein breakdown and to promote lean tissue synthesis in humans with sarcopenia. Also, HMB has been implicated as an ergogenic tool to promote exercise performance and skeletal muscle hypertrophy. Therefore, the investigators hypothesize that in individuals with SCA, an intervention of resistance exercise with HMB supplement will have a greater enhancing effect on muscle mass and strength compared to receiving resistance exercise without HMB.

NCT ID: NCT02769845 Active, not recruiting - Sickle Cell Anemia Clinical Trials

SACRED A Prospective Research Study to Reduce Stroke in Children With Sickle Cell Anemia

SACRED
Start date: March 16, 2016
Phase: N/A
Study type: Interventional

Prospective screening and treatment study for children with Sickle Cell Anemia and increased stroke risk living in the Dominican Republic.

NCT ID: NCT02556099 Active, not recruiting - Sickle Cell Anemia Clinical Trials

EXTEND EXpanding Treatment for Existing Neurological Disease

Start date: August 2014
Phase: Phase 2
Study type: Interventional

The primary goal of the Phase II EXTEND trial is to investigate the effects of open-label hydroxyurea treatment, escalated to maximum tolerated dose, for children with Sickle Cell Anemia and either conditional (170 - 199 cm/sec) or abnormal (≥200 cm/sec) Transcranial Doppler velocities. The primary endpoint will be measured after 18 months of hydroxyurea but treatment will continue until a common study termination date.

NCT ID: NCT01905787 Active, not recruiting - Sickle Cell Anemia Clinical Trials

Sickle Cell Anemia - A Comparative Study Between Three Ethnical Communities, a Multicenter Study

Start date: January 2012
Phase:
Study type: Observational

The purpose of this study is to take advance of the presence of two different cohorts of SCA patients in one country, the first group included SCA patients from Bedouin Arab origin that lives in Israel for more than one century and originally comes from African countries or Saudi Arabia, those patients lives in north east Israel and are treated at the Hematology Unit of the Emek Medical Center, the second group are SCA patients from African origin that come to Israel in the last decades and belong to original African population, this group receive treatment at the Pediatric Hematology Unit, Dana Children's Hospital, Ichilov Medical Center. A third group is a cohort of SCA patients treated at Schneider Children's Hospital Hematology Unit. Those patients belong also to the Israel Arab population and patients from a village that African Muslims live for many years. The characteristics of the three groups will be compared to the characteristics of a fourth group, a cohort of Afro-American SCA patients that are followed up and treated at the Pediatric Hematology Unit, Detroit Children's Medical Center, Detroit, Michigan, USA.

NCT ID: NCT01566890 Active, not recruiting - Sickle Cell Disease Clinical Trials

Microvascular Blood Flow in Sickle Cell Anemia

Start date: July 2012
Phase: N/A
Study type: Interventional

Sickle cell disease (SCD) is an inherited blood disorder that causes the red blood cells to change their shape from a round shape to a half-moon/crescent or sickled shape. Sickle-shaped cells can cause problems by getting stuck in blood vessels, blocking blood flow, and can cause inflammation and injury to important body parts. There are no specific treatments that improve this condition and promote blood flow hindered by sickle cell blockages. Another big challenge in managing sickle cell disease is that there are no good measures to determine changes and improvements in blood flow. Contrast-enhanced ultrasound is a technique currently used to detect blood flow in the heart, muscles, and other organs. It is extremely sensitive and can detect blood flow in the smallest of blood vessels. It would be very useful in helping healthcare providers know whether treatment strategies are improving blood flow during sickle cell blockages. The hypothesis is that contrast-enhanced ultrasound will be a feasible tool for determining changes in blood flow of subjects with sickle cell disease.

NCT ID: NCT00977691 Active, not recruiting - Sickle Cell Anemia Clinical Trials

Haploidentical PBMC Transplant for Severe Congenital Anemias

Start date: December 14, 2009
Phase: Phase 1/Phase 2
Study type: Interventional

Background: Bone marrow transplantation (BMT), which involves transplanting a donor's marrow stem cells, is capable of curing some congenital anemias. BMT usually involves high-intensity treatment with chemotherapy and radiation to kill abnormal cells, which affects all systems of the body. People with anemias often have damage to other organs such as the kidneys, which can be further damaged by the chemotherapy. Only approximately 20 percent of patients have a full-matched donor, making treatment for many people with anemias unavailable. However, 90 percent of patients may have a half-matched donor, but using a half-matched donor increases the toxicity of BMT. Objectives: To determine if a research BMT with half-matched donor cells, low-intensity radiation, immunosuppressant drugs, and no chemotherapy will be effective in patients with sickle cell disease and Beta-thalassemia. To determine the effectiveness of cyclophosphamide, an immunosuppressant drug, in preventing rejection of the donor cells. Eligibility: Recipients are individuals at least 18 years of age who have been diagnosed with sickle cell disease and Beta-thalassemia, and who have a family member who is a haploidentical (i.e., half match) tissue match. Donors are healthy individuals between the ages of 2 and 80 who are found to be suitable donors. Design: Donors will undergo apheresis, which involves withdrawing blood from one arm vein, passing it through a machine that removes bone marrow stem cells, and returning the remaining blood through the vein in the other arm. Donors will receive a drug that causes the stem cells to be released into the bloodstream prior to the apheresis procedure. Recipients will undergo routine physical and laboratory examinations, including bone marrow sampling at the beginning of the study. After transplantation, physical and laboratory examinations will occur on a weekly or twice weekly basis at the outpatient clinic. Recipients will be examined every 6 months starting 100 days posttransplant for 5 years. Recipients will receive low-dose radiation in two treatments 1 and 2 days before the transplant. They will also be given immunosuppressant therapy with alemtuzumab and sirolimus. Another immunosuppressant drug, cyclophosphamide, will be given in the future as needed to subsets of the recipients to prevent rejection of donor cells. Recipients will receive the donor stem cells through a previously inserted central line. The process takes up to 8 hours. Recipients will receive blood transfusions as necessary to prevent anemia and bleeding during the posttransplant period. They may also receive intravenous antibiotics to prevent infection.